Acrylate adhesive tape and composition

ABSTRACT

A self cross-linking pressure-sensitive acrylate adhesive and tape based on an adhesive copolymer of monomers comprising a major amount of a medium chain length alkyl acrylate monomer and preferably a minor amount of a cohesion inducing short chain monomer, plus a very small amount of an alkoxy silyl polymerizable cross-linking monomer and a relatively small amount, i.e., about 2-6 parts by weight of the total monomer solids, of a catalytic acid monomer selected from the group consisting of acrylic acid, methacrylic acid, and itaconic acid. The catalytic acid monomer acts as a built-in or internal catalyst which causes the adhesive copolymer to be self crosslinking. A stabilization system for this self cross-linking system also is disclosed.

United States Patent [72] Inventors Cyrus W. Bemmels North Brunswick; Donald F. Doehnert, Milllngton, both of NJ. [21] Appl. No. 744,173 [22] Filed July 11,1968 [45] Patented Nov. 2, 1971 1 [73] Assignee Johnson & Johnson [54] ACRYLATE ADHESIVE TAPE AND COMPOSITION 8 Claims, 2 Drawing Figs.

[52] 11.8. CI 117/122, 117/161, 260/861 [51] Int. Cl C09j 7/02 [50] Field of Search 117/122 P, 122 PA, 122 PS, 161 ZA;260/86.1

[56] References Cited UNITED STATES PATENTS 2,634,285 4/1953 Rust et a1 [17/122 UX 3,146,799 9/1964 Fekete..... 117/161 UX 3,400,103 9/1968 Samour et al 260/861 X 3,408,420 10/1968 Wiggill 117/124 X 3,423,376 l/1969 Gobran et al. 260/861 X FOREIGN PATENTS 676,096 12/1963 Canada 1 17/122 UX Primary Examiner-William D. Martin Assistant Examiner-Bernard D. Pianalto Allorneys-Alexander T. Kardos and Charles A. Harris ABSTRACT: A self cross-linking pressure-sensitive acrylate adhesive and tape based on an adhesive copolymer of monomers comprising a major amount of a medium chain length alkyl acrylate monomer and preferably a minor amount ofa cohesion inducing short chain monomer, plus a very small amount of an alkoxy silyl polymerizable cross-linking monomer and a relatively small amount, i.e., about 2-6 parts by weight of the total monomer solids, of a catalytic acid monomer selected from the group consisting of acrylic acid, methacrylic acid, and itaconic acid. The catalytic acid monomer acts as a built-in or internal catalyst which causes the adhesive copolymer to be self cross-linking. A stabilization system for this self cross-linking system also is disclosed.

ACRYLATE ADHESIVE TAPE AND COMPOSITION The present invention relates to pressure-sensitive adhesive sheets and tapes and pressure-sensitive adhesives therefor and more particularly to pressure-sensitive acrylate adhesive products.

Pressure-sensitive adhesives based upon acrylate copolymers are well known for their many fine qualities, principally for their ability to provide the desired tack without the addition of a tackifying resin and for their outstanding clarity. However, these adhesives are sensitive to heat and solvents and are adversely affected thereby. Various proposals have been made for cross-linking acrylate adhesives to increase their resistance to heat and solvents. However, these usually have resulted in products which lack the other properties, such as tack, which are necessary in a pressure-sensitive adhesive.

We have invented a novel acrylate pressure-sensitive adhesive product in which the acrylate copolymer is self cross-linking and, when cross-linked, possesses excellent resistance to solvents and to shear at normal and elevated temperatures as well as the desired balance of tack, hold, cohesive strength and other properties which are so difficult to obtain in crosslinked copolymers of this type. We have discovered that the desired performance characteristics of the adhesive products of this invention are closely related to the plasticity of the adhesive. Thus, we have determined that the dried and crosslinked adhesive according to this invention should have a Williams Plasticity of about 2.0-3.0 for best results, although adhesives having somewhat higher and lower plasticities also may be used to contribute the desired balance of physical properties to the resulting adhesive product.

The pressure-sensitive adhesive product of this invention is based upon an adhesive copolymer of monomers which consists essentially of a major amount of a medium chain length alkyl acrylate monomer and preferably a minor amount of a cohesion inducing short chain monomer, plus a very small amount of an alkoxy silyl cross-linking monomer polymerizable in the acrylate system. These monomers are copolymerized together with a relatively small amount of a particular type of catalytic acid monomer which acts as a built-in or internal catalyst which causes the adhesive copolymer to be selfcross-linking.

The medium chain length alkyl acrylate monomers of this invention generally are those averaging about four-l2 carbon atoms in the alcohol moiety and include, butyl, hexyl, 2 ethylhexyl, octyl, decyl, and dodecyl acrylates, and the like, alone or in combination with one another or with higher and lower alkyl acrylates. The medium chain length acrylate monomer is present in the adhesive copolymer of this invention in a major amount by weight of the total monomers, preferably in the amount by weight of the total monomers, preferably in the amount of about 60-80 parts by weight of the monomers. When the term parts" is used above and hereinafter in this application, it shall mean parts per 100 parts by weight of the total monomer solids, unless otherwise indicated.

The cohesion inducing short chain monomers of this invention generally are selected from vinyl acetate, methyl acrylate, methyl methacrylate, and the like, and preferably are present in the total monomers in the amount of about -30 parts, preferably above about parts.

The alkoxy silyl cross-linking monomer of this invention may be prepared as described in US. Pat. application Ser. No. 399,837 filed Sept. 28, 1964, and comprises an alkoxy silyl alkyl group and an unsaturated functional terminal group copolymerizable with the other monomers. This functional terminal group preferably is an acrylate or substituted acrylate group such as The polymerizable cross-linking alkoxy silyl alkyl groups found to be particularly effective are those having the general formula where R and R" are either CH or CH CI-I and R is one of the group consisting ofCH CH CH,, CH O, and en ct-1 0,, and n is a number of 0 through 8. A preferred silyl cross-linking monomer is 3-methacryloxy-propyltrimethoxy-silane, i.e.,

The amount of the silyl cross-linking monomer to be included in the copolymer depends on the exact constituents of the copolymer and the degree of cross-linking desired. Very small amounts are found to be effective. The silyl cross-linking monomer will generally be included in amounts of about 0.005 to 0.1 or 0.2 or more by weight of the total monomers with about 0.0l -0.05 parts being preferred.

The catalytic acid monomers of this invention generally are selected from acrylic acid, methacrylic acid and itaconic acid, with acrylic acid being preferred. They are present in the total monomers in the amount of about 2-6 parts, preferably 2.5-4.5 parts when acrylic acid is employed for this purpose.

The adhesive copolymer composition of this invention preferably is produced by mixing the monomers in the desired proportions to form a monomer mix and then polymerizing the mixture in an oxygenated organic solvent such as acetone, tertiary butyl alcohol, diacetone alcohol, or the like. or a mixture of these with one another or with an additional organic solvent, utilizing a suitable catalyst for the polymerization reaction. Preferably, the polymerization is conducted in several stages employing a combination of organic peroxide catalysts. For instance benzoyl peroxide may be employed to initiate the reaction in the first stage or stages, and a relatively thermally active catalyst such as 2,4-dichlorobenzoyl peroxide may be added in the final stage to increase the yield. Then an aliphatic diluent is added to achieve the desired copolymer solution viscosity and solids content.

Self cross-linking of the existing copolymer begins and continues slowly throughout the polymerization reaction. How ever, the resulting copolymer is only partially cross-linked when polymerization is completed. Since the copolymer is self cross-linking at normal room temperatures and proceeds more rapidly at normal drying temperatures in the neighborhood of 200 F., or less, it will continue to cross-link and increase in viscosity in the copolymer solution. As a result, the solution must be coated on the backing sheet within a reasonable period of time such as four to six weeks after polymerization is completed to avoid the excessive thickening, due to crosslinking. which would interfere with coating.

According to our invention, this problem can be avoided by adding a small amount of water or alcohol or both to the adhesive solution shortly after polymerization is completed to retard the cross-linking reaction and thereby increase the pot life" of the copolymer solution. The water or alcohol solution stabilizer preferably is added in the amount of at least about one per cent water or five per cent alcohol by weight of the total solution to give best results. It is estimated that this will increase the pot life of the adhesive solution to over six months under normal conditions. After the adhesive copolymer solution is coated on the backing at the desired viscosity, the remaining cross-linking is completed after the adhesive is dried. The presence of the water or alcohol in the adhesive solution does not affect the plasticity or performance of the adhesive after it is dried.

Thus the acrylate adhesive of this invention is fully crosslinked in situ without the addition of an external cross-linking catalyst or any other contaminant. The catalytic acid monomer becomes part of the adhesive copolymer, itself, and contributes to the properties of the resulting pressure-sensitive adhesive sheet or tape.

Other and further advantages of this invention will appear to one skilled in the art from the following description and claims, wherein:

FIG. 1 is a view in perspective of a roll of tape according to one embodiment of the invention, and

FIG. 2 is a greatly enlarged fragmental sectional view taken along the line 2-2 of FIG. 1.

Referring to the drawings, there is shown a roll of pressure-sensitive adhesive tape 11, according to one embodiment of this invention, which comprises a flexible backing sheet 12 and a layer 13 of pressure-sensitive adhesive composition according to this invention coated on one major surface of said backing. The tape 11 normally is wound upon itself around a core 14 with the adhesive side of the tape facing inwardly toward the core. The backing sheet 12 may be a plastic film, paper, or any other suitable backing material and the tape may include various other layers or coatings, such as primers, release coatings, and the like, which are used in the manufacture of pressure-sensitive adhesive tapes.

The following examples are given only by way ofillustration and are not intended to limit the scope of the present invention in any way. In the examples all proportions are given in parts per one hundred parts by weight of the total adhesive monomer solids unless otherwise indicated.

EXAMPLEI A monomer mix according to this invention is formulated as follows and stirred until thoroughly mixed.

Heat to reflux temperature (57 C.) and stir for one hour. The entire polymerization reaction is run so as to maintain a gentle reflux ofthe acetone solvent.

Then add l/3 monomer mix Heat for an additional hour at reflux Then add l/3 monomer mix 2 4 dichlorobenzoyl peroxide, 50 percent solids in dibutylphthalatc Continue heating and stirring at reflux for an additional 6 hours.

Then add Aliphatic diluent When the aliphatic diluent is thoroughly mixed with the partially cross-linked copolymer, a water white adhesive solution containing about 35 percent copolymer solids is obtained. To this is added 8 percent isopropyl alcohol based on the total solution weight to provide a stabilized adhesive solution with an extensive pot life," i.e., it doesn't gel for an extensive period, say for 6 months, and therefore is coatable on a suitable backing.

The stabilized copolymer solution of this invention then is coated onto a polyethylene terephthalate film about 1.5 mils thick and dried for 5 minutes at 200 F. in a forced air oven to give a dry adhesive coating weighing about 0.9 plus or minus about 0.1 ounce per square yard. The resulting coated film is then slit into pressure-sensitive adhesive tapes about 1 inch wide which are wound upon themselves in the form of rolls. The tapes are tested for adhesion to steel, hold to chrome and tack or quick stick and are found to have excellent properties over a wide range of temperatures as indicated in the following table A. These properties are determined in this and subsequent examples by the following tests.

The adhesive strength or peel adhesion to steel is measured by peeling the tape backing over itself 180 at a constant speed (by a force applied to the free end of the tape) from a smooth steel surface to which it has been applied by a fixed pressure. For the techniques used in conducting this test, see the 180 peel adhesion test PSTC-l of the Pressure-sensitive Tape Council.

Quick stick is measured by laying a length of tape, adhesive side up, upon a horizontal surface and then rolling a hollow plastic ball down an incline onto the adhesive. The vertical height at which the ball starts and the distance the ball rolls along the tape before coming to rest is measured. Quick stick is reported as the height in inches raised to the three-halves power, divided by the distance rolled in inches. This ratio is found to be a constant for a given tape. The ball is plastic and approximately 1.5 inches in diameter, and weighs approximately 2 grams. Its outer surface is carefully cleaned between each test.

Hold to chrome is measured in terms of the time taken to strip a specified tape sample from a one-half 56) inch by onehalf (/2) inch chrome-plated surface by attaching a 400 gram weight to the bottom end of the tape when the surface is disposed at 20 to the vertical and the tape is hanging at an angle of 20 to the adjacent portion of the chrome-plated surface from which it is being removed.

Williams plasticity is determined as follows. A wet film of the solution adhesive is coated on silicone release paper so as to produce a dry film approximately lmils in thickness. It is dried five minutes at 195200 F. in a circulating air oven. The adhesive is removed from the silicone paper and a pellet exactly 2 grams in weight is formed in the shape of a ball. The sample ball is placed between two plasticity papers and conditioned for 15 minutes at 100 F. The plasticity papers consist of papers with a highly glossy clay coated surface facing the plasticity pellet. The Williams plasticity is the thickness of the pellet in mm. after 15 minutes compression at 100 F. in the plastometer under a 5 kg. load.

The desired balance of pressure-sensitive adhesive properties according to this invention is best achieved with a peel adhesion of at least about 25 ounces per inch of width, a quick stick of at least about 0.4 or 0.5, preferably above one, and a hold to chrome of at least about l hour.

In the following additional examples the indicated monomers are copolymerized in the formulations described in table A. They then are made into tapes and tested as in example l. The results also are given in table A.

TABLE A Example I II III IV V 2ethy1hexyl acrylate, parts 75 72 75 94 Vinyl acetate, parts 22 22 Methyl acrylatc, parts 21 22 Acrylic acid, parts 4 6 3 G 3-mcthacryloxy-propyltrimethoxysilane, parts 0.05 0.0.! 0.01 0.0.2 0. Polymerization solvents and proportionsfi... A 50A; SOEA 54A; 46EA 28A; TLZEA 37A; GBEA Approx. percent solids content 35 28 25 35 28 Williams plasticity 2.00 2. 30 2. 51 J. 7 1.03 Adhesion ox./in. width 40 30 42 35 30 Quick stick 2. 0 1. 2 0. 4 1.2 1. 2 Hold to Chrome, mins. (75 F.) 60 1,500

A means acetone and "EA means ethyl acrylate.

The above adhesives are crystal clear and exhibit plasticities within the desired range and the resulting tapes possess excellent hold and other adhesive properties.

Samples of each of the adhesive copolymers of Examples Il- V are stabilized by the addition of about 1.5 per cent water to the adhesive solution after polymerization. This effectively retards cross-linking so that the adhesive remains coatable within a reasonable period oftime, in the order of 6 months.

Having now described the invention in specific detail and exemplified the manner in which it may be carried into practice, it will be readily apparent to those skilled in the art that innumerable variations, applications, modifications, and extensions of the basic principles involved may be made without departing from its spirit or scope.

What is claimed is:

l. A normally tacky and pressure-sensitive adhesive sheet which comprises a thin flexible backing member and a pressure-sensitive adhesive composition coated on one major surface thereof; said composition comprising a copolymer of monomers consisting essentially of a. a major amount by weight of the total monomer solids of a medium chain length alkyl acrylate monomer averaging about four-l2 carbon atoms in the alcohol moiety,

b. about 2-6 parts per 100 parts by weight of the total monomer solids of a catalytic acid monomer selected from the group consisting of acrylic acid, methacrylic acid, and itaconic acid, and

c. about 0.005-02 parts per 100 parts by weight of the total monomer solids of an alkoxy silyl cross-linking monomer having an unsaturated functional terminal group copolymerizable with the other monomers; said copolymer being self cross-linking at normal room temperatures.

2. A pressure-sensitive adhesive sheet according to claim 1 wherein said monomers also include about l0-30 parts per 100 parts by weight of the total monomer solids of a cohesion inducing short chain monomer copolymerizable with monomer (a).

3. A pressure-sensitive adhesive sheet according to claim 2 wherein said cohesion inducing short chain monomer is selected from the group consisting of vinyl acetate, methyl acrylate, and methyl methacrylate.

4. A pressure-sensitive adhesive sheet according to claim 2,

where R and R" are either CH or cl-l Cl-l and R is one of the group consisting ofCH CH CH Cl-l O and CH CH O and n is a number 0f0 through 8.

7 A pressure-sensitive adhesive sheet according to claim 6, wherein the unsaturated functional terminal group in the cross linking monomer is 8. A pressure-sensitive adhesive sheet according to claim 7, wherein said cross-linking monomer is i (CH;O);Si-CH:CH C H, O C C(CH3)=CH,.

'zghlg? UNITED STATES PATENT OFFICE CERTIFICATE OF CORRECTION Patent No. 362 Dated Novnmber 197]- Inventor(s) Cyrus W. Bemmels and that said Letters Patent are ppears in the above-identified patent hereby corrected as shown below:

It is certified that error a In Column 2, line 1, "where R' and R" are either CH3lor CH3 CH end R is one of the group consisting of CH ,CH CH ,CH O, and CH CH O and n is a. number of 0 through 8 should read -----where R and R" are either CH3-or CH3CH and R is one of the group consisting of CH3-,CH3CH ,CH30-and CH3CH O-, and n is a number of 0 through 8 In Table A, line 9, "Adhesion ox. /in.width" should read -----Adhesion oz./in.width------.

In Column 6, line 15, "where R and R" are either CH3 or CH3CH 0 d 3 CH3CH CH3 8,11

, and n is a. number of 0 through 8" should read and R is one of the group consisting of CH CH3CH O -----where R and R" are either CH -or CH CH rou consistin of (1H CH CH ,CH O- and CH CH O- and n is s g P S 3 3 2 3 3 2 y and R is one of the number of 0 through 8 Signed and sealed this 27th day of June 1 972 (SEAL) Attest:

ROBERT GOTTSCHALK EDWARD M.FLETCHER, JR.

Commissioner of Patents Attesting Officer 

2. A pressure-sensitive adhesive sheet according to claim 1 wherein said monomers also include about 10- 30 parts per 100 parts by weight of the total monomer solids of a cohesion inducing short chain monomer copolymerizable with monomer (a).
 3. A pressure-sensitive adhesive sheet according to claim 2 wherein said cohesion inducing short chain monomer is selected from the group consisting of vinyl acetate, methyl acrylate, and methyl methacrylate.
 4. A pressure-sensitive adhesive sheet according to claim 2, wherein said catalytic acid monomer is acrylic acid and said copolymer comprises about 2.5- 4.5 parts per 100 parts by weight of the total monomer solids thereof.
 5. A pressure-sensitive adhesive sheet according to claim 4, wherein said medium chain length acrylate monomer is 2-ethyl hexyl acrylate. 6 A pressure-sensitive adhesive sheet according to claim 1, wherein said cross-linking monomer comprises alkoxy silyl alkyl groups according to the following general formula:
 8. A pressure-sensitive adhesive sheet according to claim 7, wherein said cross-linking monomer is 